Gas Sparger Orifice Sizes and Solid Particle Characteristics in a Bubble Column - Relative Effect on Hydrodynamics and Mass Transfer

Wongwailikhit Kritchart; Warunyuwong Passaworn; Chawaloesphonsiya Nattawin; Dietrich Nicolas; Hebrard Gilles; Painmanakul Pisut

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Gas Sparger Orifice Sizes and Solid Particle Characteristics in a Bubble Column - Relative Effect on Hydrodynamics and Mass Transfer

机译：气体喷射孔口尺寸和泡沫柱中的固体颗粒特征 - 对水动力学和传质的相对影响

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The relative effects of the size of gas sparger orifices and properties of solid particles on gas-liquid mass transfer are not yet fully understood. Here, the impact of sparger orifice sizes, solid particle shapes, and their loading amounts in a bubble column reactor on the absorption of oxygen in tap water was investigated. Their influence on the mass transfer coefficient and bubble hydrodynamic parameters was evaluated. The results show that the addition of solid particles can have both positive and negative effects on hydrodynamics and mass transfer, depending on the orifice size of the gas sparger. The introduction of ring-shaped solid particles can improve the mass transfer rate by up to 28% without requiring any significant additional power.

机译：尚未完全理解气体纺织孔尺寸和固体颗粒的性质的相对效果。这里，研究了侧血管孔尺寸，固体颗粒形状的影响，固体颗粒形状和它们在自来水中吸收氧的吸收中的气泡柱反应器中的加载量。评价它们对传质系数和泡沫流体动力学参数的影响。结果表明，取决于气体喷射器的孔口尺寸，加入固体颗粒对流体动力学和传质产生负面影响。环形固体颗粒的引入可以将质量转移率提高至28％，而无需任何显着的额外功率。

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来源
《Chemical Engineering & Technology: Industrial Chemistry -Plant Equipment -Process Engineering -Biotechnology》 |2018年第3期|共8页
作者
Wongwailikhit Kritchart; Warunyuwong Passaworn; Chawaloesphonsiya Nattawin; Dietrich Nicolas; Hebrard Gilles; Painmanakul Pisut;
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作者单位

Chulalongkorn Univ Dept Environm Engn Fac Engn 254 Phayathai Rd Bangkok 10330 Thailand;

Chulalongkorn Univ Dept Environm Engn Fac Engn 254 Phayathai Rd Bangkok 10330 Thailand;

Chulalongkorn Univ Dept Environm Engn Fac Engn 254 Phayathai Rd Bangkok 10330 Thailand;

UPS Univ Toulouse INSA INPT LISBP 135 Ave Rangueil F-31077 Toulouse France;

UPS Univ Toulouse INSA INPT LISBP 135 Ave Rangueil F-31077 Toulouse France;

Chulalongkorn Univ Dept Environm Engn Fac Engn 254 Phayathai Rd Bangkok 10330 Thailand;

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原文格式 PDF
正文语种 eng
中图分类化学工业;
关键词
Bubble column; Gas sparger orifice; Hydrodynamics; Mass transfer; Solid particles;

机译：泡泡柱;气体缩放孔;流体动力学;传质;固体颗粒;

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1. Gas Sparger Orifice Sizes and Solid Particle Characteristics in a Bubble Column - Relative Effect on Hydrodynamics and Mass Transfer [J] . Wongwailikhit Kritchart, Warunyuwong Passaworn, Chawaloesphonsiya Nattawin, Chemical Engineering & Technology: Industrial Chemistry -Plant Equipment -Process Engineering -Biotechnology . 2018,第3期

机译：气体喷射孔口尺寸和泡沫柱中的固体颗粒特征 - 对水动力学和传质的相对影响
2. The influence of polymeric membrane gas spargers on hydrodynamics and mass transfer in bubble column bioreactors [J] . Tirunehe Gossaye, Norddahl B. Bioprocess and Biosystems Engineering . 2016,第4期

机译：鼓膜生物反应器中聚合物膜气体喷射器对流体力学和传质的影响
3. HYDRODYNAMICS AND MASS TRANSFER IN A SUSPENDED SOLID BUBBLE COLUMN WITH POLYDISPERSED HIGH DENSITY PARTICLES [J] . Garciaochoa J., Poncin S., Wild G., Chemical Engineering Science . 1997,第21a22期

机译：悬浮高密度颗粒的悬浮固体鼓泡中的流体动力学和传质
4. Effect of Gas Sparger and Plastic Media on Mass Transfer and Hydrodynamic Parameters in Bubble Column Reactor [C] . Passaworn WARUNYUWONG, Pisut PAINMANAKUL, Tsuyoshi IMAI Water and environment technology conference 2017 . 2017

机译：鼓泡剂和塑性介质对鼓泡塔反应器传质和流体力学参数的影响
5. HYDRODYNAMIC AND MASS TRANSFER CHARACTERISTICS OF COCURRENT DOWNFLOW BUBBLE COLUMN. [D] . KULKARNI, AMOL ANANT. 1983

机译：顺流向下气泡柱的水力传递和传质特性。
6. Modeling ethanol production through gas fermentation: a biothermodynamics and mass transfer-based hybrid model for microbial growth in a large-scale bubble column bioreactor [O] . Eduardo Almeida Benalcázar, Henk Noorman, Rubens Maciel Filho, 2020

机译：通过气体发酵模拟乙醇生产：基于生物热力学和传质的混合模型用于大型鼓泡塔生物反应器中的微生物生长
7. Relative Effect of Additional Solid Media on Bubble Hydrodynamics in Bubble Column and Airlift Reactors towards Mass Transfer Enhancement [O] . Prajak Sastaravet, Saret Bun, Kritchart Wongwailikhit, 2020

机译：附加固体培养基对泡沫柱泡沫流体动力学对传质增强的相对效果
8. Hydrodynamics and Mass Transfer in Bubble Columns at Elevated Pressures. [R] . Letzel, H. M. 2001

机译：高压气泡塔中的流体动力学和传质。

Gas Sparger Orifice Sizes and Solid Particle Characteristics in a Bubble Column - Relative Effect on Hydrodynamics and Mass Transfer

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